Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sepsis is a major catabolic insult resulting in modifications in carbohydrate and fat energy metabolism, and leading to increased muscle breakdown and nitrogen loss. Insulin resistance, which develops in sepsis, decreases glucose utilization, but plasma insulin levels are sufficiently elevated to prevent lipolysis, resulting in a further energy deficit. The availability of fuels in sepsis is therefore limited, and the body resorts to muscle breakdown, gluconeogenesis, and amino acid oxidation for energy supply. Previous work has not defined, however, the exact alterations in amino acid metabolism. Therefore, the following studies were undertaken. Blood samples were drawn from fifteen patients in whom the diagnosis of sepsis was clinically established; the samples were analyzed for amino acid, beta-hydroxyphenylethanolamines, glucose, insulin and glucagon concentrations. The plasma amino acid pattern observed was characterized by an increase in total amino acid content, due mainly to high levels of the aromatic amino acids (phenylalanine and tyrosine) and the sulfur-containing amino acids (taurine, cystine and methionine). Alanine, aspartic acid, glutamic acid and proline were also elevated, but to a lesser degree. The branched chain amino acids (valine, leucine and isoleucine) were within normal limits, as were glycine, serine, threonine, lysine, histidine and tryptophan. Those patients who did not survive sepsis had higher levels of aromatic and sulfur-containing amino acids as compared to those patients surviving sepsis. On the other hand, those patients surviving sepsis had higher levels of alanine and the branched chain amino acids. In a second group of five patients with overwhelming sepsis accompanied by a state of metabolic encephalopathy, a parenteral nutrition solution consisting of 23% dextrose, and an amino acid formulation enriched with branched chain amino acids was administered. In these five patients, normalization of the plasma amino acid pattern and reversal of encephalopathy was observed. The following sequence of events may be postulated: The septic patient develops insulin resistance in the peripheral tissues, primarily muscle, while the adipose tissue is much less affected. The insulin resistance and the inability to utilize fat leads to increased muscle proteolysis. Muscle breakdown results in release into the blood of enormous amounts of various amino acids; the muscle itself is able to oxidize the branched chain amino acids, supplying the muscles' own energy requirements and alanine for gluconeogenesis. The extensive muscle proteolysis coupled with relative hepatic insufficiency occurring early in sepsis results in the appearance in the plasma of high levels of most of the amino acids present in muscle, particularly the aromatic and the sulfur-containing amino acids. The outcome of patients with sepsis might be positively affected by combined therapy with glucose, insulin and branched chain amino acids.
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PMID:Amino acid derangements in patients with sepsis: treatment with branched chain amino acid rich infusions. 9 98

The hormonal changes associated with sepsis appear to be important compensatory responses directed toward (1) increasing the availability of fuel (glucose, fatty acids, and amino acids) for the greatly accelerated needs of the cellular metabolic machinery and (2) maintaining an adequate blood volume, blood pressure, and tissue perfusion. Unrecognized or inadequately treated sepsis with subsequent prolonged trophic hormone stimulation depletes the patient of fuels necessary for the maintenance of the increased metabolic demands. This leads to eventual deleterious effects with muscle wasting, increased susceptibility to infection, and impaired wound healing. Manipulation of some of the hormones in sepsis, particularly insulin, glucagon, and growth hormone, with an adequate caloric intake to promote a more favorable anabolic response, holds exciting promise.
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PMID:Endocrine changes in sepsis. 17 87

Preoperative and serial postoperative clinical, cardiovascular, physiologic, and metabolic studies were carried out on 86 patients undergoing coronary artery bypass surgery (CABG); and 48 patients undergoing abdominal general surgical procedures (GSEL). Multivariable statistical analysis of these data showed the patients to be in different physiologic states and to manifest several types of recovery trajectories that could not be discerned on clinical grounds alone. The CABG patients followed one of three types of cardiogenic recovery trajectories. In contrast, GSEL patients show a normal recovery trajectory different from all CABG types. When sepsis develops, and exaggerated stress response (A state) occurs, with increased oxygen consumption and a pattern of amino acids, fat, and glucose breakdown products, which is heightened but similar to the response of nonseptic GSEL patients. With progression of sepsis severity, an unbalanced hyperdynamic recovery trajectory (B state) develops in which a decrease in oxygen consumption is associated with increases in the aromatic amino acids tyrosine, tryptophane, and phenylalanine; and decreases in the branched-chain amino acids, leucine and isoleucine. Triglycerides rise as keto acids fall, but both lactate and pyruvate rise. Glucagon is persistently high, regardless of insulin levels. The quantifiably different physiologic recovery trajectories reflect altered hormone and metabolic states and imply different responses to therapy.
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PMID:The physiologic recovery trajectory as the organizing principle for the quantification of hormonometabolic adaptation to surgical stress and severe sepsis. 31 78

Femoral arteriovenous differences and flux of amino acids across the leg were measured in seven septic patients and compared with those of six nonseptic patients on days 1 and 3 following major surgery. The septic patients were seriously ill and judged clinically to be catabolic. The postoperative patients, although not septic, were expected to have a maximal catabolic response to operation during the first 3 days after operation. Both groups had increased release of phenylalanine from the leg, an index of muscle proteolysis. Septic patients had decreased femoral arteriovenous differences (--20 vs --74 and --60 mumoles/liter) and decreased flux (34 vs 169 and 128 nm/100 gm of calf muscle) of the branched-chain amino acids as compared with the nonseptic postoperative patients on days 1 and 3. The arterial plasmal levels of the branched-chain amino acids and alanine were not different, but phenylalanine was elevated in the septic patients (88 vs 49 and 55 mumoles/liter). The insulin:glucagon molar ratio was lower in the septic patients (2.4 vs 4.4 and 5.5). These findings suggest that in the catabolism of sepsis there is greater oxidation of branched-chain amino acids in muscle than in the catabolism associated with uncomplicated surgery.
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PMID:Femoral arteriovenous amino acid differences in septic patients. 42 6

Simultaneous longitudinal hormonometabolic-physiologic (cardiopulmonary) profiles were measured in 14 nonseptic trauma/general surgery (T/GS) patients and in ten patients with Gram-negative abdominal surgical sepsis. The physiologic state classification system was used as the frame of reference. There were no response differences between the T and GS groups: they had A State responses. The sepsis (S) patients initially had exaggerated A State responses with significant changes in glucose, fat, amino acid, and glucagon plasma levels relative to T/GS. The S patients who survived (four) demonstrated profiles as in T/GS. The S patients who expired (six) progressively evolved an unbalanced, hyperdynamic B State response with progressive elevations of glucose, lactate, aromatic and branched-chain amino acids and glucagon, and low ketone bodies. There is definite correlation over time between metabolic and physiologic responses; the physiologic responses reflect the metabolic responses; the metabolic responses are consistent with a peripheral energy-fuel deficit.
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PMID:Correlations between metabolic and cardiopulmonary measurements in patients after trauma, general surgery, and sepsis. 46 74

Glucose intolerance has been commonly observed in sepsis and has been attributed to a multitude of endocrine and metabolic disorders. From 1977 to 1978, 19 patients were studied using intravenous glucose tolerance tests to evaluate this phenomenon; 15 patients presented with ongoing sepsis and four patients served as stress controls. Glucose intolerance was found to be a significant finding in less than 40% of the septic group. This state of intolerance was noted to be associated with a high mortality rate (60%), whereas glucose tolerance in sepsis was associated with a much improved mortality rate (10%). Hormone levels were correlated with glucose tolerance curves using the parameters of insulin, glucagon, growth hormone, cortisol, and epinephrine levels. Glucose intolerance and a high mortality rate were linked to sustained hyperglucagonemia, which was unresponsive to glucose challenge, and to marked suppression of growth hormone. This apparently represents a decompensated peripheral metabolic energy deficit, which results in the increased mortality rate.
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PMID:The sepsis-glucose intolerance riddle: a hormonal explanation. 47 28

Hormonal and substrate profiles and urinary nitrogen and urea excretion were measured in 78 underweight patients admitted for surgical investigation, who were placed into either a normo- or a hyperketonemic group, depending upon their levels of acetoacetate and beta-hydroxybutyrate. The two groups were otherwise similar in terms of weight loss, arm muscle circumference, triceps skinfold thickness, and serum protein levels. Before surgery only one-quarter of them were hyperketonemic displaying mean glucose, insulin, and glucagon levels characteristic of starvation-adaption, and excreted significantly less urinary nitrogen than in normoketonemic group. Those patients who underwent surgery tended to retain their presurgery hormonal and substrate profile. The normoketonemic group excreted significantly greater amounts of urinary nitrogen, depleted body protein to a greater extent as evidenced by larger changes in arm muscle circumference and serum protein levels, and mortality was greater. Interference with insulin-glucagon balance by sepsis and disease is suggested as a possible explanation for the failure of three-quarters of the patients to become starvation-adapted. The implications of this finding on the parenteral feeding of undernourished patients are discussed.
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PMID:Ketosis and nitrogen excretion in undernourished surgical patients. 57 67

The catabolism of glucose and amino acids has been studied in the normal, the fasted, and the fasted septic dog. The fasted septic dog oxidized more glucose and alanine, and had more gluconeogenesis from alanine and the five tritiated amino acids--glutamate, threonine, phenylalanine, leucine, and valine--as compared to the normal and equally fasted dog. Thus the total body protein catabolic state was characterized in biochemical terms. In contrast, following glucose infusion, the fasted septic animal responded much like the fasted animal in terms of decreased animo acid gluconeogenesis and decreased plasma concentrations of amino acids, fats and fat products, but considerably increased the oxidation of alanine. The increased alanine oxidation appeared to be primarily related to increased tissue clearance and increased plasma concentration. There was some suggestive evidence for enhanced oxidation of the tritiated amino acids including leucine and valine during glucose infusion. The protein catabolic state secondary to this sort of sepsis in dogs only on per os fluid support appears to be best characterized as a glucose catabolic state with alanine being oxidized directly. Such states are known to be ones of enhanced metabolic rate secondary to enhanced synthetic processes generally. This is probably related to enhanced sympathetic nervous system release of glucagon with insulin being normally responsive to glucose because of a normal plasma epinephrine.
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PMID:Turnover of amino acids in sepsis and starvation: Effect of glucose infusion. 125 26

The effect of treatment of rats with bacterial endotoxin on fructose 2,6-bisphosphate (Fru-2,6-P2) metabolism was investigated in isolated liver cells prepared from 18 h-starved animals. The results obtained support the hypothesis that a stimulation of 6-phosphofructo-1-kinase (PFK-1) activity and an inhibition of fructose-1,6-bisphosphatase (Fru-1,6-P2ase) may be one mechanism underlying the inhibition of gluconeogenesis from lactate and pyruvate by endotoxin. We suggest that the stimulation of PFK-1 and inhibition of Fru-1,6-P2ase activity is the result of a 2-3-fold increase in Fru-2,6-P2. The latter is not due to changes in the total activity or phosphorylation state of the bifunctional 6-phosphofructo-2-kinase (PFK-2)/fructose-2,6-bisphosphatase, but appears to be the result of a decrease in the cytosolic concentration of phosphoenolpyruvate (PEP), an inhibitor of PFK-2 activity. The effect of endotoxin is resistant to the presence of glucagon, which has comparable effects in cells prepared from both control and endotoxin-treated animals. The mechanism by which endotoxin treatment of the rat decreases PEP and gluconeogenesis remains to be established. However, it does not involve alterations in either the total activity or the phosphorylation state of pyruvate kinase, nor does it involve increased flux through this enzyme in the intact cell, which is in fact decreased in this model of septic shock. It is suggested that the decreased flux may result from a lower rate of formation of PEP, suggesting that the prime lesion in sepsis is an inhibition of one or more of the steps leading to PEP formation.
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PMID:Effect of treatment in vivo of rats with bacterial endotoxin on fructose 2,6-bisphosphate metabolism and L-pyruvate kinase activity and flux in isolated liver cells. 132 Mar 77

Metabolic effects of a commercially available amino acid infusate were investigated in five preoperative patients with abdominal sepsis and five healthy subjects. Oxygen consumption (VO2) was measured continuously during the 3-h study, and blood samples were taken regularly for hormone and metabolite analyses. During 1 h of preinfusion measurements, VO2 was 15% higher (P less than 0.05) in the septic patients. Preinfusion plasma cortisol, glucagon, and catecholamines were also significantly elevated in the septic group. The amino acid solution (9 g nitrogen; 950 kJ; 227 kcal) was infused into each subject through their central venous catheter during the 2nd and 3rd h of the study. VO2 increased similarly in both groups by approximately 21% during the infusion (P less than 0.05), whereas respiratory quotient increased significantly in only the controls (P less than 0.05). Plasma insulin and glucagon concentrations rose significantly in both groups during the infusion, despite little change in glucose levels. Plasma norepinephrine increased in both groups, although the response was significant in only the control subjects. In summary, the amino acid infusate stimulated metabolic rate similarly in the septic and nonseptic subjects.
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PMID:Thermogenic and hormonal responses to amino acid infusion in septic humans. 163 90


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